Beyer Mario, Nesterov Alexander, Block Ines, König Kai, Felgenhauer Thomas, Fernandez Simon, Leibe Klaus, Torralba Gloria, Hausmann Michael, Trunk Ulrich, Lindenstruth Volker, Bischoff F Ralf, Stadler Volker, Breitling Frank
German Cancer Research Center, INF 580, 69120 Heidelberg, Germany.
Science. 2007 Dec 21;318(5858):1888. doi: 10.1126/science.1149751.
Arrays promise to advance biology through parallel screening for binding partners. We show the combinatorial in situ synthesis of 40,000 peptide spots per square centimeter on a microchip. Our variant Merrifield synthesis immobilizes activated amino acids as monomers within particles, which are successively attracted by electric fields generated on each pixel electrode of the chip. With all different amino acids addressed, particles are melted at once to initiate coupling. Repetitive coupling cycles should allow for the translation of whole proteomes into arrays of overlapping peptides that could be used for proteome research and antibody profiling.
阵列有望通过对结合配体进行平行筛选来推动生物学发展。我们展示了在微芯片上每平方厘米组合原位合成40,000个肽点。我们改进的梅里菲尔德合成法将活化氨基酸作为单体固定在颗粒中,这些颗粒被芯片每个像素电极上产生的电场依次吸引。当所有不同的氨基酸都到位后,颗粒同时熔化以启动偶联反应。重复的偶联循环应能将整个蛋白质组转化为重叠肽阵列,可用于蛋白质组研究和抗体分析。
